1 /* Copyright (c) 2015 Nicira, Inc.
3 * Licensed under the Apache License, Version 2.0 (the "License");
4 * you may not use this file except in compliance with the License.
5 * You may obtain a copy of the License at:
7 * http://www.apache.org/licenses/LICENSE-2.0
9 * Unless required by applicable law or agreed to in writing, software
10 * distributed under the License is distributed on an "AS IS" BASIS,
11 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 * See the License for the specific language governing permissions and
13 * limitations under the License.
18 #include "dynamic-string.h"
20 #include "ofp-actions.h"
22 #include "openvswitch/vlog.h"
23 #include "ovn/controller/ovn-controller.h"
24 #include "ovn/lib/actions.h"
25 #include "ovn/lib/expr.h"
26 #include "ovn/lib/ovn-sb-idl.h"
29 VLOG_DEFINE_THIS_MODULE(lflow);
33 /* Contains "struct expr_symbol"s for fields supported by OVN lflows. */
34 static struct shash symtab;
37 add_logical_register(struct shash *symtab, enum mf_field_id id)
41 snprintf(name, sizeof name, "reg%d", id - MFF_REG0);
42 expr_symtab_add_field(symtab, name, id, NULL, false);
50 /* Reserve a pair of registers for the logical inport and outport. A full
51 * 32-bit register each is bigger than we need, but the expression code
52 * doesn't yet support string fields that occupy less than a full OXM. */
53 expr_symtab_add_string(&symtab, "inport", MFF_LOG_INPORT, NULL);
54 expr_symtab_add_string(&symtab, "outport", MFF_LOG_OUTPORT, NULL);
56 /* Logical registers. */
57 #define MFF_LOG_REG(ID) add_logical_register(&symtab, ID);
61 /* Connection tracking state. */
62 expr_symtab_add_field(&symtab, "ct_state", MFF_CT_STATE, NULL, false);
63 expr_symtab_add_predicate(&symtab, "ct.trk", "ct_state[7]");
64 expr_symtab_add_subfield(&symtab, "ct.new", "ct.trk", "ct_state[0]");
65 expr_symtab_add_subfield(&symtab, "ct.est", "ct.trk", "ct_state[1]");
66 expr_symtab_add_subfield(&symtab, "ct.rel", "ct.trk", "ct_state[2]");
67 expr_symtab_add_subfield(&symtab, "ct.inv", "ct.trk", "ct_state[5]");
68 expr_symtab_add_subfield(&symtab, "ct.rpl", "ct.trk", "ct_state[6]");
71 expr_symtab_add_field(&symtab, "eth.src", MFF_ETH_SRC, NULL, false);
72 expr_symtab_add_field(&symtab, "eth.dst", MFF_ETH_DST, NULL, false);
73 expr_symtab_add_field(&symtab, "eth.type", MFF_ETH_TYPE, NULL, true);
75 expr_symtab_add_field(&symtab, "vlan.tci", MFF_VLAN_TCI, NULL, false);
76 expr_symtab_add_predicate(&symtab, "vlan.present", "vlan.tci[12]");
77 expr_symtab_add_subfield(&symtab, "vlan.pcp", "vlan.present",
79 expr_symtab_add_subfield(&symtab, "vlan.vid", "vlan.present",
82 expr_symtab_add_predicate(&symtab, "ip4", "eth.type == 0x800");
83 expr_symtab_add_predicate(&symtab, "ip6", "eth.type == 0x86dd");
84 expr_symtab_add_predicate(&symtab, "ip", "ip4 || ip6");
85 expr_symtab_add_field(&symtab, "ip.proto", MFF_IP_PROTO, "ip", true);
86 expr_symtab_add_field(&symtab, "ip.dscp", MFF_IP_DSCP, "ip", false);
87 expr_symtab_add_field(&symtab, "ip.ecn", MFF_IP_ECN, "ip", false);
88 expr_symtab_add_field(&symtab, "ip.ttl", MFF_IP_TTL, "ip", false);
90 expr_symtab_add_field(&symtab, "ip4.src", MFF_IPV4_SRC, "ip4", false);
91 expr_symtab_add_field(&symtab, "ip4.dst", MFF_IPV4_DST, "ip4", false);
93 expr_symtab_add_predicate(&symtab, "icmp4", "ip4 && ip.proto == 1");
94 expr_symtab_add_field(&symtab, "icmp4.type", MFF_ICMPV4_TYPE, "icmp4",
96 expr_symtab_add_field(&symtab, "icmp4.code", MFF_ICMPV4_CODE, "icmp4",
99 expr_symtab_add_field(&symtab, "ip6.src", MFF_IPV6_SRC, "ip6", false);
100 expr_symtab_add_field(&symtab, "ip6.dst", MFF_IPV6_DST, "ip6", false);
101 expr_symtab_add_field(&symtab, "ip6.label", MFF_IPV6_LABEL, "ip6", false);
103 expr_symtab_add_predicate(&symtab, "icmp6", "ip6 && ip.proto == 58");
104 expr_symtab_add_field(&symtab, "icmp6.type", MFF_ICMPV6_TYPE, "icmp6",
106 expr_symtab_add_field(&symtab, "icmp6.code", MFF_ICMPV6_CODE, "icmp6",
109 expr_symtab_add_predicate(&symtab, "icmp", "icmp4 || icmp6");
111 expr_symtab_add_field(&symtab, "ip.frag", MFF_IP_FRAG, "ip", false);
112 expr_symtab_add_predicate(&symtab, "ip.is_frag", "ip.frag[0]");
113 expr_symtab_add_predicate(&symtab, "ip.later_frag", "ip.frag[1]");
114 expr_symtab_add_predicate(&symtab, "ip.first_frag",
115 "ip.is_frag && !ip.later_frag");
117 expr_symtab_add_predicate(&symtab, "arp", "eth.type == 0x806");
118 expr_symtab_add_field(&symtab, "arp.op", MFF_ARP_OP, "arp", false);
119 expr_symtab_add_field(&symtab, "arp.spa", MFF_ARP_SPA, "arp", false);
120 expr_symtab_add_field(&symtab, "arp.sha", MFF_ARP_SHA, "arp", false);
121 expr_symtab_add_field(&symtab, "arp.tpa", MFF_ARP_TPA, "arp", false);
122 expr_symtab_add_field(&symtab, "arp.tha", MFF_ARP_THA, "arp", false);
124 expr_symtab_add_predicate(&symtab, "nd",
125 "icmp6.type == {135, 136} && icmp6.code == 0");
126 expr_symtab_add_field(&symtab, "nd.target", MFF_ND_TARGET, "nd", false);
127 expr_symtab_add_field(&symtab, "nd.sll", MFF_ND_SLL,
128 "nd && icmp6.type == 135", false);
129 expr_symtab_add_field(&symtab, "nd.tll", MFF_ND_TLL,
130 "nd && icmp6.type == 136", false);
132 expr_symtab_add_predicate(&symtab, "tcp", "ip.proto == 6");
133 expr_symtab_add_field(&symtab, "tcp.src", MFF_TCP_SRC, "tcp", false);
134 expr_symtab_add_field(&symtab, "tcp.dst", MFF_TCP_DST, "tcp", false);
135 expr_symtab_add_field(&symtab, "tcp.flags", MFF_TCP_FLAGS, "tcp", false);
137 expr_symtab_add_predicate(&symtab, "udp", "ip.proto == 17");
138 expr_symtab_add_field(&symtab, "udp.src", MFF_UDP_SRC, "udp", false);
139 expr_symtab_add_field(&symtab, "udp.dst", MFF_UDP_DST, "udp", false);
141 expr_symtab_add_predicate(&symtab, "sctp", "ip.proto == 132");
142 expr_symtab_add_field(&symtab, "sctp.src", MFF_SCTP_SRC, "sctp", false);
143 expr_symtab_add_field(&symtab, "sctp.dst", MFF_SCTP_DST, "sctp", false);
146 /* Logical datapaths and logical port numbers. */
148 /* A logical datapath.
150 * 'ports' maps 'logical_port' names to 'tunnel_key' values in the OVN_SB
151 * Port_Binding table within the logical datapath. */
152 struct logical_datapath {
153 struct hmap_node hmap_node; /* Indexed on 'uuid'. */
154 struct uuid uuid; /* UUID from Datapath_Binding row. */
155 uint32_t tunnel_key; /* 'tunnel_key' from Datapath_Binding row. */
156 struct simap ports; /* Logical port name to port number. */
159 /* Contains "struct logical_datapath"s. */
160 static struct hmap logical_datapaths = HMAP_INITIALIZER(&logical_datapaths);
162 /* Finds and returns the logical_datapath for 'binding', or NULL if no such
163 * logical_datapath exists. */
164 static struct logical_datapath *
165 ldp_lookup(const struct sbrec_datapath_binding *binding)
167 struct logical_datapath *ldp;
168 HMAP_FOR_EACH_IN_BUCKET (ldp, hmap_node, uuid_hash(&binding->header_.uuid),
169 &logical_datapaths) {
170 if (uuid_equals(&ldp->uuid, &binding->header_.uuid)) {
177 /* Creates a new logical_datapath for the given 'binding'. */
178 static struct logical_datapath *
179 ldp_create(const struct sbrec_datapath_binding *binding)
181 struct logical_datapath *ldp;
183 ldp = xmalloc(sizeof *ldp);
184 hmap_insert(&logical_datapaths, &ldp->hmap_node,
185 uuid_hash(&binding->header_.uuid));
186 ldp->uuid = binding->header_.uuid;
187 ldp->tunnel_key = binding->tunnel_key;
188 simap_init(&ldp->ports);
192 static struct logical_datapath *
193 ldp_lookup_or_create(const struct sbrec_datapath_binding *binding)
195 struct logical_datapath *ldp = ldp_lookup(binding);
196 return ldp ? ldp : ldp_create(binding);
200 ldp_free(struct logical_datapath *ldp)
202 simap_destroy(&ldp->ports);
203 hmap_remove(&logical_datapaths, &ldp->hmap_node);
207 /* Iterates through all of the records in the Port_Binding table, updating the
208 * table of logical_datapaths to match the values found in active
211 ldp_run(struct controller_ctx *ctx)
213 struct logical_datapath *ldp;
214 HMAP_FOR_EACH (ldp, hmap_node, &logical_datapaths) {
215 simap_clear(&ldp->ports);
218 const struct sbrec_port_binding *binding;
219 SBREC_PORT_BINDING_FOR_EACH (binding, ctx->ovnsb_idl) {
220 struct logical_datapath *ldp = ldp_lookup_or_create(binding->datapath);
222 simap_put(&ldp->ports, binding->logical_port, binding->tunnel_key);
225 const struct sbrec_multicast_group *mc;
226 SBREC_MULTICAST_GROUP_FOR_EACH (mc, ctx->ovnsb_idl) {
227 struct logical_datapath *ldp = ldp_lookup_or_create(mc->datapath);
228 simap_put(&ldp->ports, mc->name, mc->tunnel_key);
231 struct logical_datapath *next_ldp;
232 HMAP_FOR_EACH_SAFE (ldp, next_ldp, hmap_node, &logical_datapaths) {
233 if (simap_is_empty(&ldp->ports)) {
242 struct logical_datapath *ldp, *next_ldp;
243 HMAP_FOR_EACH_SAFE (ldp, next_ldp, hmap_node, &logical_datapaths) {
254 /* Translates logical flows in the Logical_Flow table in the OVN_SB database
255 * into OpenFlow flows. See ovn-architecture(7) for more information. */
257 lflow_run(struct controller_ctx *ctx, struct hmap *flow_table,
258 const struct simap *ct_zones)
260 struct hmap flows = HMAP_INITIALIZER(&flows);
261 uint32_t conj_id_ofs = 1;
265 const struct sbrec_logical_flow *lflow;
266 SBREC_LOGICAL_FLOW_FOR_EACH (lflow, ctx->ovnsb_idl) {
267 /* Find the "struct logical_datapath" asssociated with this
268 * Logical_Flow row. If there's no such struct, that must be because
269 * no logical ports are bound to that logical datapath, so there's no
270 * point in maintaining any flows for it anyway, so skip it. */
271 const struct logical_datapath *ldp;
272 ldp = ldp_lookup(lflow->logical_datapath);
277 /* Determine translation of logical table IDs to physical table IDs. */
278 bool ingress = !strcmp(lflow->pipeline, "ingress");
279 uint8_t first_ptable = (ingress
280 ? OFTABLE_LOG_INGRESS_PIPELINE
281 : OFTABLE_LOG_EGRESS_PIPELINE);
282 uint8_t ptable = first_ptable + lflow->table_id;
283 uint8_t output_ptable = (ingress
284 ? OFTABLE_REMOTE_OUTPUT
285 : OFTABLE_LOG_TO_PHY);
287 /* Translate OVN actions into OpenFlow actions.
289 * XXX Deny changes to 'outport' in egress pipeline. */
290 uint64_t ofpacts_stub[64 / 8];
291 struct ofpbuf ofpacts;
292 struct expr *prereqs;
295 ofpbuf_use_stub(&ofpacts, ofpacts_stub, sizeof ofpacts_stub);
296 error = actions_parse_string(lflow->actions, &symtab, &ldp->ports,
297 ct_zones, first_ptable, LOG_PIPELINE_LEN,
298 lflow->table_id, output_ptable,
301 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
302 VLOG_WARN_RL(&rl, "error parsing actions \"%s\": %s",
303 lflow->actions, error);
308 /* Translate OVN match into table of OpenFlow matches. */
312 expr = expr_parse_string(lflow->match, &symtab, &error);
315 expr = expr_combine(EXPR_T_AND, expr, prereqs);
318 expr = expr_annotate(expr, &symtab, &error);
321 static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
322 VLOG_WARN_RL(&rl, "error parsing match \"%s\": %s",
323 lflow->match, error);
324 expr_destroy(prereqs);
325 ofpbuf_uninit(&ofpacts);
330 expr = expr_simplify(expr);
331 expr = expr_normalize(expr);
332 uint32_t n_conjs = expr_to_matches(expr, &ldp->ports, &matches);
335 /* Prepare the OpenFlow matches for adding to the flow table. */
336 struct expr_match *m;
337 HMAP_FOR_EACH (m, hmap_node, &matches) {
338 match_set_metadata(&m->match, htonll(ldp->tunnel_key));
339 if (m->match.wc.masks.conj_id) {
340 m->match.flow.conj_id += conj_id_ofs;
343 ofctrl_add_flow(flow_table, ptable, lflow->priority,
344 &m->match, &ofpacts);
346 uint64_t conj_stubs[64 / 8];
349 ofpbuf_use_stub(&conj, conj_stubs, sizeof conj_stubs);
350 for (int i = 0; i < m->n; i++) {
351 const struct cls_conjunction *src = &m->conjunctions[i];
352 struct ofpact_conjunction *dst;
354 dst = ofpact_put_CONJUNCTION(&conj);
355 dst->id = src->id + conj_id_ofs;
356 dst->clause = src->clause;
357 dst->n_clauses = src->n_clauses;
359 ofctrl_add_flow(flow_table, ptable, lflow->priority,
361 ofpbuf_uninit(&conj);
366 expr_matches_destroy(&matches);
367 ofpbuf_uninit(&ofpacts);
368 conj_id_ofs += n_conjs;
375 expr_symtab_destroy(&symtab);